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Variant Forms of Urate Oxidase and Use Thereof

a uricolytic activity and urate technology, applied in the field of genetically modified proteins with uricolytic activity, can solve the problems of gout, tophi, disfiguring urate deposits, and renal failure, and achieve the effect of maintaining uricolytic activity

Active Publication Date: 2009-07-02
HORIZON THERAPEUTICS USA INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0022]The subject invention provides a mutant recombinant uricase, wherein the uricase has been truncated by 1-20 amino acids and retains the uricolytic activity of the naturally occurring uricase. The truncations are at or around the sequence termini such that the protein may contain the ultimate amino acids. These mutations and truncations may enhance stability of the protein comprising such mutations.

Problems solved by technology

As a consequence, in susceptible individuals, excessive concentrations of uric acid in the blood (hyperuricemia) can lead to painful arthritis (gout), disfiguring urate deposits (tophi) and renal failure.
In some affected individuals, available drugs such as allopurinol (an inhibitor of uric acid synthesis) produce treatrnent-limiting adverse effects or do not relieve these conditions adequately.
Since uricase is a foreign protein in humans, even the first injection of the unmodified protein from Aspergillus flavus has induced anaphylactic reactions in several percent of treated patients (Pui, C-H, et al., (1997) Leukemia 11:1813-1816, incorporated herein by reference in its entirety), and immunologic responses limit its utility for chronic or intermittent treatment.
However, injection of the microbial enzymes quickly induces immunological responses that can lead to life-threatening allergic reactions or to inactivation and / or accelerated clearance of the uricase from the circulation.
Enzymes based on the deduced amino acid sequences of uricases from mammals, including pig and baboon, or from insects, such as, for example, Drosophila melanogaster or Drosophila pseudoobscura (Wallrath, L L, et al., (1990) Mol Cell Biol 10:5114-5127, incorporated herein by reference in its entirety), have not been suitable candidates for clinical use, due to problems of immunogenicity and insolubility at physiological pH.
Furthermore, it is not well suited for long-term therapy because of its immunogenicity.
This has invariably resulted in large decreases in the enzymatic activity of the resultant conjugates.
Because of the critical condition of the patient and the short duration of treatment (four injections during 14 days), it is not possible to evaluate the long-term efficacy or safety of the conjugate.
They do not provide for directing other specific genetically-induced alterations in the protein.
Previous attempts to eliminate the immunogenicity of uricases from several sources by coupling various numbers of strands of PEG through various linkers have met with limited success.
However, a research team that included two of the same scientists and used the same methods reported elsewhere that this extent of coupling left residual activity of only 23-28%.
Conjugation of PEG to a smaller fraction of the lysine residues in uricase reduced but did not eliminate its immunoreactivity in experimental animals.
However, studies using SDS-PAGE and / or Western techniques revealed the presence of unexpected low molecular weight peptides which appear to be degradation products and increase in frequency over time.

Method used

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  • Variant Forms of Urate Oxidase and Use Thereof
  • Variant Forms of Urate Oxidase and Use Thereof
  • Variant Forms of Urate Oxidase and Use Thereof

Examples

Experimental program
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Effect test

example 1

Construction of Gene and Expression Plasmid for Uricase Expression

[0109]Recombinant porcine uricase (urate oxidase), Pig-KS-ΔN (amino terminus truncated pig uricase protein replacing amino acids 291 and 301 with lysine and serine, respectively) was expressed in E. coli K-12 strain W3 110 F−. A series of plasmids was constructed culminating in pOUR-P-ΔN-ks-1, which upon transformation of the E. coli host cells was capable of directing efficient expression of uricase.

Isolation and Subcloning of Uricase cDNA From Pig and Baboon Liver

[0110]Uricase cDNAs were prepared from pig and baboon livers by isolation and subcloning of the relevant RNA. Total cellular RNA was extracted from pig and baboon livers (Erlich, H. A. (1989). PCR Technology; Principles and Application for DNA Amplification; Sambrook, J., et al. (1989). Molecular Cloning: A Laboratory Manual, 2nd edition; Ausubel, F. M. et al. (1998). Current protocols in molecular Biology), then reverse-transcribed using the First-Strand c...

example 2

Transformation of the Expression Plasmid Into a Bacterial Host Cell

[0140]The expression plasmid, pOUR-P-ΔN-ks-1, was introduced into E. coli K-12 strain W3110 F−. Bacterial cells were prepared for transformation involved growth to mid log phase in Luria broth (LB), then cells were harvested by centrifugation, washed in cold water, and suspended in 10% glycerol, in water, at a concentration of about 3×1010 cells per ml. The cells were stored in aliquots, at −70° C. Plasmid DNA was precipitated in ethanol and dissolved in water.

[0141]Bacterial cells and plasmid DNA were mixed, and transformation was done by the high voltage electroporation method using Gene Pulser II from BIO-RAD (Trevors et al (1992). Electrotransformation of bacteria by plasmid DNA, in Guide to Electroporation and Electrofusion (D. C. Chang, B. M. Chassy, J. A. Saunders and A. E. Sowers, eds.), pp. 265-290, Academic Press Inc., San Diego, Hanahan et al (1991) Meth. Enzymol., 204, 63-113). Transformed cells were susp...

example 3

Recombinant Uricase Preparation

[0142]Bacteria such as those transformed (see above) were cultured in medium containing glucose; pH was maintained at 7.2±0.2, at approximately 37° C.

[0143]Towards the last 5-6 hours of cultivation, the medium was supplemented with KCl to a final concentration of 0.3M. Cultivation was continued to allow uricase accumulation.

[0144]Recombinant uricase accumulated within bacterial cells as an insoluble precipitate similar to inclusion bodies (IBs). The cell suspension was washed by centrifugation and suspended in 50 mM Tris buffer, pH 8.0 and 10 mM EDTA and brought to a final volume of approximately 40 times the dry cell weight.

[0145]Recombinant uricase-containing IBs, were isolated by centrifugation following disruption of bacterial cells using lysozyme and high pressure. Treatment with lysozyme (2000-3000 units / ml) was done for 16-20 hours at pH 8.0 and 7±3° C., while mixing. The pellet was washed with water and stored at −20° C. until use.

[0146]The enr...

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Abstract

The present invention relates to genetically modified proteins with uricolytic activity. More specifically, the invention relates to proteins comprising truncated urate oxidases and methods for producing them, including PEGylated proteins comprising truncated urate oxidases.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS[0001]The present application claims priority to and benefit of U.S. provisional application Ser. No.: 60 / 670,573, filed on Apr. 11, 2005, the disclosure of which is being incorporated by reference herein.FIELD OF INVENTION[0002]The present invention relates to genetically modified proteins with uricolytic activity. More specifically, the invention relates to proteins comprising truncated urate oxidases and methods for producing them.BACKGROUND OF THE INVENTION[0003]The terms urate oxidase and uricase are used herein interchangeably. Urate oxidases (uricases; E.C. 1.7.3.3) are enzymes which catalyze the oxidation of uric acid to a more soluble product, allantoin, a purine metabolite that is more readily excreted. Humans do not produce enzymatically active uricase, as a result of several mutations in the gene for uricase acquired during the evolution of higher primates. Wu, X, et al., (1992) J Mol Evol 34:78-84, incorporated herein by reference ...

Claims

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Application Information

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IPC IPC(8): C12N9/06C12N11/08A61K38/44C12N15/70C12N1/21C12P21/02
CPCA61K47/48215C12N9/0048C12Y107/03003C12N9/0046A61K47/60A61K38/44A61P13/12A61P19/06A61P3/00A61P43/00A61K47/50C07K14/47
Inventor HARTMAN, JACOBMENDELOVITZ, SIMONA
Owner HORIZON THERAPEUTICS USA INC
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